Generally P3- ion in phosphides (so, charge is -3)
P2S3 is an ionic compound. It is made up of phosphorus and sulfur ions that are held together by ionic bonds, where phosphorus typically forms a 3- charge and sulfur typically forms a 2- charge.
The formula for the ionic compound formed by magnesium and phosphorus atoms is Mg3P2. This is because magnesium has a 2+ charge and phosphorus has a 3- charge, so the ratio of ions needed for charge balance is 3:2.
Cu3P is an ionic compound. Copper (Cu) typically forms cations with a charge of +2, while phosphorus (P) forms anions with a charge of -3. In Cu3P, the copper cations and phosphorus anions form an ionic bond due to the transfer of electrons.
The ionic name of Zn3P2 is zinc phosphide. In this compound, zinc (Zn) is the cation with a charge of +2, and phosphorus (P) is the anion with a charge of -3.
The phosphide ion, meaning phosphorous by itself not bound up in a poly-atomic ion, has a charge of -3 in ionic compounds.
Phosphorus oxide, also known as phosphorus pentoxide (P2O5), has an ionic charge of -10. This is because each oxygen atom will have an ionic charge of -2 and there are 5 oxygen atoms in the compound, resulting in a total charge of -10.
P2S3 is an ionic compound. It is made up of phosphorus and sulfur ions that are held together by ionic bonds, where phosphorus typically forms a 3- charge and sulfur typically forms a 2- charge.
The formula for the ionic compound formed by magnesium and phosphorus atoms is Mg3P2. This is because magnesium has a 2+ charge and phosphorus has a 3- charge, so the ratio of ions needed for charge balance is 3:2.
Cu3P is an ionic compound. Copper (Cu) typically forms cations with a charge of +2, while phosphorus (P) forms anions with a charge of -3. In Cu3P, the copper cations and phosphorus anions form an ionic bond due to the transfer of electrons.
The ionic name of Zn3P2 is zinc phosphide. In this compound, zinc (Zn) is the cation with a charge of +2, and phosphorus (P) is the anion with a charge of -3.
The phosphide ion, meaning phosphorous by itself not bound up in a poly-atomic ion, has a charge of -3 in ionic compounds.
The binary ionic compound Sc3P2 is named scandium phosphide. It is composed of scandium (Sc) cations with a charge of +3 and phosphorus (P) anions with a charge of -3. The formula indicates that each scandium cation is combined with two phosphorus anions.
The formula for the ionic compound formed between rubidium (Rb) and phosphorus (P) is Rb3P, because rubidium is a group 1 metal with a +1 charge and phosphorus is a group 15 nonmetal with a -3 charge. To balance the charges, you need three rubidium atoms for every one phosphorus atom.
Be3P2 is a binary ionic compound formed between beryllium (Be) and phosphorus (P). Beryllium has a 2+ charge, while phosphorus has a 3- charge, so the compound is written as Be3P2 to balance the charges.
The compound is aluminium phosphide and the chemical formula is AlP.
The ionic compound of Ba3P2 is barium phosphide. It is formed by the combination of barium (Ba) cations with a 3+ charge and phosphorus (P) anions with a 2- charge, resulting in the formula Ba3P2.
Phosphorus is a chemical element, not a compound.